Marine Debris and Micro Particles
Marine Debris and Micro Particles
What is marine debris?
Marine debris is defined as:
“any persistent solid material that is manufactured or
processed and directly or indirectly, intentionally or
unintentionally, disposed of or abandoned into the marine
environment or the Great Lakes”.
– NOAA What are the sources?
How does it move around?
What are the impacts?
What are micro particles?
What you can do about
marine debris.
Some types of marine debris
lumber
glass
metal rubber
plastic
derelict fishing gear
derelict vessels
Ocean-based sources
- Fishing vessels
- Stationary offshore oil and gas platforms
- Cargo ships, cruise ships and container vessels
- Sewage sludge dumping ground at sea
- Sea-based aquaculture activities (major source of marine plastic debris)
Where does marine debris come from?
- Debris generated on land
- Littering, dumping, and poor waste management practices
- Storm water
Land-based sources
- Extreme natural event (hurricanes, tornadoes, tsunamis, floods and mudslides)
- Illegal dumping of domestic and industrial waste
- Inadequately covered waste containers and waste container vehicles
How does the marine debris move around in the ocean?
Once items that float
enter the ocean, they
can move by ocean
currents and winds.
Marine debris can be
carried far from its
origin making it difficult
to determine exactly
where an item came
from.
What are some impacts of marine debris?
Ecological impacts:
Invasive species transport
Ghost fishing
Release of associated chemicals Wildlife entanglement
Habitat damage alters benthic community structure
Ingestion
What are some impacts of marine debris?
Economic impacts:
- Cost to tourism
- Navigational hazard
- Losses to fishery operations
- Cleaning costs
What are some impacts of marine debris?
Social impacts: - Reduction to
aesthetics
- Human health and safety
Micro particles – What are they?
Rate of plastic degradation in the marine environment depends upon:
-chemical composition
-size -molecular weight -additives -environmental conditions
-temperature -wave action -exposure to sunlight and
- location
Degradation = the wearing down by disintegration. Degradation takes longer in the marine environment because of lower temperatures.
Mineralization = the total
degradation of plastics into carbon dioxide, water and inorganic molecules. Most commonly used plastics do not mineralize in the marine environment – they break down into smaller and smaller pieces.
National Oceanic and Atmospheric Administration’s definition:
micro particles = any particle 5 mm or less in size
What are some sources of plastic micro particles?
Primary Sources:
• Accidental loss of industrial raw materials while transporting
Secondary Sources:
• Degradation of larger plastic fragments from UV radiation, mechanical forces in the marine environment (wave action, or through biological activity of organisms (boring, tearing, shredding).
• Release of micro particles (facial scrubs and personal care products) into the environment by urban wastewater treatment.
• Discharge of sewage sludge.
Abundance and distribution of micro plastics depends upon a number of factors:
Surface currents
Surface winds
Density of the plastic
Color and shape of the plastic
Proximity to human development
Scientists have documented the harmful effects of macro plastic
debris on organisms like sea turtles and whales, but there is little
known about the harmful effects of micro plastics.
Potential harmful effects of micro plastics:
• Physical harm from ingestion
• Leaching of toxic chemicals
• Desorption of persistent, bio-accumulative and toxic chemicals which are highly toxic, long-lasting substances that can build up in the food chain to levels that are harmful to human and ecosystem health (mercury, chlordane, DDT, PCB’s)
Studies show that micro plastics have been ingested by a number of
organisms including:
Zooplankton (copepods, larval fish and medusae)
Benthic invertebrates (polychaetes, crustaceans, echinoderms,
bryozoans and bivalves)
Vertebrates (fish, seabirds, marine mammals)
June 2014 Illinois Gov. Pat Quinn signed legislation banning the manufacture and sale of personal care products containing synthetic plastic microbeads: • bans the manufacture of personal care products containing microbeads by 2017. • bans the sale of personal care products and the manufacture of over the counter drugs by end of 2018. • bans the sale of over the counter drugs by the end of 2019.
You will be able to quantify changes in abundance,
distribution and types of micro particles.
A micro particle study on a sandy beach using transecting:
wrack line
swash zone
quadrats
We will be exploring the abundance and distribution of
micro particles on a sandy beach along the length
of the upper and intertidal sections of the beach
that extends from the wrack line (line of debris
left by the high tide) to the swash zone.
Transecting is a useful ecological tool designed to
track changes spatially along a linear line. You will
be able to quantify changes in abundance,
distribution and types of micro particles.
A micro particle study on a sandy beach using transecting:
quadrats
wrack line swash zone
1 2 3 4 5 6 7 8 9 10
Extract particles using sifter
Count particles in each macro and micro types.
Determine weight of each type.
For each Quadrat …
Separate particles into macro and micro types.
Films Fragments Foams Filaments Cigarettes Glass Total
Number of macro particles >5 mm
Number of micro particles 1 mm – 5 mm
Density of micro particles (g/cm3)
Volume of micro particles (mls)
Weight (g) of micro particles Density (g/cm3) x Volume (ml) = Weight (g)
Your data:
0
5
10
15
20
25
1 2 3 4 5 6 7 8 9 10
Nu
mb
er
Transect
Number of micro particles
Films
Fragments
Foams
Filaments
Cigarettes
Glass
0.21
0.29
0.17
0.42
0.52
1.08
Average weight of micro particles (g)
Films
Fragments
Foams
Filaments
Cigarettes
Glass
Marine Debris and Micro Particles